NO138073B - ELECTRICAL CONTACT CLAMP. - Google Patents

Description

The invention relates to electrical contact terminals.

A known electrical clamp comprises a metal plate formed with

a slot opening at one end to define a wire-receiving orifice through which an insulated wire can be pressed

viewed across its longitudinal axis into the slot, so that the slot edges penetrate the insulation to provide electrical connection with the wire core.

It is a disadvantage of such known clamps that they can usually only function satisfactorily when they are used in connection with cables whose dimensions lie within a rather narrow range,

and where a plurality of wires are inserted into a single slot next to each other, these must be of essentially the same dimension, as otherwise a thicker wire can widen the slot sufficiently to reduce the efficiency of the electrical connection with a thinner wire. Moreover, the presence of two neighboring lines in a slot, even if these have the same dimension, can cause significant

equal local tensile stresses in the slot, which also reduces the efficiency and reliability of the connections.

Another known electrical clamp (Norwegian patent 89,390) is provided with transverse slits which are relatively wide. These lead to deformation or displacement of the insulation or the core during the passage past the splits, with the result that the cable may be exposed to transverse bias with subsequent deformation of the next resilient section, or parts of the insulation may come into contact between the core and the slot walls in the next spring section, whereby the quality of the electrical connection would be destroyed.

More specifically, this invention therefore relates to an electrical contact.

clamp comprising a metal tube having an axially extending open seam forming a conductor receiving slot which is open at an axial end to provide a mouth through which the conductor can be pressed into and along the slot, which slot has walls which are parallel and is divided by a notch across the slot to form separate, resilient conductor grip sections.

The new and distinctive feature of the contact clamp according to the invention is that the incision is in the form of a narrow slot and the walls of the slot form insulation-penetrating edges, so that an insulated wire can be pushed across its axis through the mouth along the slot past the incision to the one section or another so that the walls at the slot penetrate the insulation to establish an electrical connection with the wire core or conductor.

The invention makes it possible for wires of differing dimensions to find space in just one slot, i.e. with one wire on each side of the cut. The tension effects that develop in the slot walls of neighboring lines are not transmitted directly along the slot towards both ends thereof, and this largely reduces localized tension effects that would occur in known clamps.

A particular advantage of the contact clamp according to the invention is that the walls at the open seam which forms the contact slot are effectively insulation-penetrating at the same time that a wire can be passed along the slot. This is not the case with the previously known designs.

It is a further ■ advantage when the clamp is used to form a connection with only one relatively thick wire, that this can then be placed at the intersection between the slot and the transverse incision so that four contact connections are formed with the wire.

The invention is explained in more detail below with reference to the schematic figures, where

fig. 1 is a perspective view of an embodiment of an electrical contact device with contact terminals according to the invention,

fig. 2 is an exploded perspective view of a mantle for this

device with only one of a plurality of terminals inscribed,

fig. 3 is a section along line 3-3 in fig. 2,

fig. 4 is a section along line 4-4 in fig. 1,

fig. 5 shows the device in fig. 1 top view, partly in

cut,, and

fig. 6 is a plan view of a part of this device where a wire with a relatively large diameter is connected to a clamp according to the invention.

The one in fig. 1. shown contact device comprises a mantle 10 cast

of a suitable insulating plastic material and with an introduction

or front surface 12 and a rear surface 14 (fig. 2-4). A series of contact or clamp receiving cavities 16 extend next to each other through the mantle 10 in connection with the surfaces 12, 14,

and a clip 18 is retained in each cavity.

Each clamp is punched and formed in one piece of sheet metal and has at the front ends a planar step 20 with a bend 22 which is directed rearwards to form a fork-shaped connecting part 24 for abutment against conductors 8 on a printed circuit board 4. A spring-loaded locking forward-

o

spring 26 is punched out of step 20 directed backwards on clamp 18 (fig. 4). Another step 30 which is in one piece with the step 20 and extends from this in the same direction, forms a connection with a rear part 28 and the clamp 18 (fig. 2). This part is tubular with walls 3 2 which are bent inwards towards each other at the free edges to form an axially directed, open slot 34 for cable reception. This slot widens at the back of the clip to form

of a wire receiving mouth 40.

The slit is divided into two wire-receiving sections by the incision

which form slits 36 in the slot walls between the ends of these and extend across the slot in an oblique direction to punched holes 35. The slot is thus divided into two semi-independent spring systems for receiving two or more wires or one relatively large wire. The underside of the part 28 is cut away at the rear end (fig. 4) so that the upper parts of the slot walls define rearwardly directed cantilever springs. This feature is advantageous for the wire insertion operation described in Norwegian patent application no. 74.1099.

-The continuous cavities 16 in the mantle 10 are separated from each other in the direction towards the front surface 12 by means of T-shaped walls 4 2 in cross-section which extend from the bottom of the mantle 10 partly up to the upper wall 43 therein to delimit an opening -58 to take up one end of the circuit board 4. A recess 46 is arranged in the bottom 44 in each of the cavities 16, and this extends

inwards from the front surface 12 to a blind end which defines a shoulder 48 for cooperation with the projection 26 on the clamps 18. A further recess 50 in the bottom of the mantle 10 extends from the rear surface 14 towards the said blind end and in this place has an inclined plane 49.

A central part 51 of the cavity 16 is narrowed as shown in fig. 4, so that the clip 18 cannot be moved completely through this when inserted from the rear surface 14, and the rear end of each cavity is widened to accommodate the tubular portion 28 of the clip. On the upper side 52 of the mantle 10 are openings 54 to expose the slotted part of the clamp 18 when these are introduced into the cavities. The openings 54 have arched inner ends 56 (Fig. 5). The walls between neighboring cavities 16 protrude from the rear surface 14 as indicated by the number 53 to isolate the rear ends 38 of adjacent clamps 18 from each other.

A removable cover 60 (Fig. 5) is arranged on the rear surface 14 of the mantle 10, and it consists of a bottom 62 with flanges 64, 65 extending from opposite edges thereof to define a U -profile. Locking arms 68 extend from the opposite ends of the base 62 and have outwardly offset, free end portions 70 formed with slots 72. The edges 66 of the flanges 64, 65 are chamfered to form curved surfaces over which the wires 6 can be laid in a row when connected with the clamps 18.

The clamps 18 are mounted in the casing 10 by, as indicated, introducing them axially into the cavities 16 from the rear surface 14. During insertion, the projection' 26 is bent into plane with the step 20 of the inclined plane 49 and then snaps into the recess 46 in contact with the shoulder 48 to prevent removal of the clamp. An excessively long introduction of the clamp 18 is prevented, as mentioned, by the narrowed part 51 coming into contact with the tubular clamping part 28. Individual cables can be inserted into the slots by using the device described in the above-mentioned application, which provides group insertion and trimming of the wires at the same time. As the slot is very narrow, its walls are essentially continuous, and the wires can be pressed along the slot to be occupied on both sides of the slot 36.

After the wires have been inserted into the slots, the cover 60 can be mounted on the casing by bringing it forward towards the rear surface 14 until the slots 72 occupy protrusions 74 on the casing 10 with snap fit.

The flange 64 then partially extends over the side 52 of the mantle

10 for closing the openings 54 in the same way. The wires 6 will be

then enclosed between the flange 64 and the inner ends 56 of the openings

54 so that they are perpendicular to the clamping slots.

If individual wires are placed at opposite sides of slot 36, each will form a separate spring system. With this arrangement, a concentration of extremely high voltage effects in a localized zone is avoided, which would result if two wires were placed next to each other in a slot

in a clamp with only one spring system. The clamp can accommodate wires with dimensions within a relatively large range. If

a relatively thick wire is inserted into the slot, it may be advantageous to place this at the intersection of the slits 36 and the slot 34, as shown in fig. 6. With this placement, four electrical contact zones are provided, as both spring systems establish a connection.

It is an advantage of the clamp 18 that the slot 3 4 can be formed by means of a relatively simple but precisely controllable matrix forming operation, and it is not necessary to punch out a precisely dimensioned slot as is customary to do in certain devices according to the known technique. In practice, it has been shown that this is achieved

a very good mechanical connection between wire and clamp, particularly where the wire is subjected to tension in a direction perpendicular to the longitudinal axis of the clamp, so that any tensile stress applied to the wire is transferred to the connection in the preferred normal direction.

The contact clamp in question is particularly advantageous with a method as stated in Norwegian patent application no. 74.1080.

It should be noted that wires shaped like flat conductors can be used in connection with the present invention.

Claims (1)

Electrical contact terminal comprising a metal tube having an axially extending open seam forming a conductor receiving slot-which is open at one axial end to provide an opening through which the conductor can be pressed into and along the slot, which slot has walls which are parallel and is divided by an incision across the slot to form separate, resilient conductor gripping sections, characterized in that the incision (36) is in the form of a narrow slot and the walls of the slot (34) constitute insulation penetrating edges so that an insulated wire can pres-. seen across its axis through the mouth along the slot (34) past the notch (36) to one or the other section so that the walls at the slot penetrate the insulation to establish •electrical connection with the wire core or conductor.